Journal ArticleDOI
Static mechanical properties of the developing and mature rat aorta
TLDR
Studies of muscle function indicate that the smooth muscle of the media does not contribute significantly to the static elastic properties of the vessel wall, and the value of the incremental elastic modulus does not change after 12 weeks.Abstract:
The static mechanical properties of the aorta have been examined in rats, aged between 4 weeks and 2 years. Internal radius, relative wall thickness, circumferential incremental strain, and circumferential incremental elastic modulus have been measured at pressures between 1.33 and 33.3 kPa (10 and 250 mm Hg). The results show that the value of the incremental elastic modulus does not change after 12 weeks. Changes observed in younger animals are related to alterations in relative wall thickness. The findings correlate with previously observed chemical and morphological changes.
Studies of muscle function indicate that the smooth muscle of the media does not contribute significantly to the static elastic properties of the vessel wall.read more
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Journal ArticleDOI
Vascular Extracellular Matrix and Arterial Mechanics
TL;DR: By correlating vessel mechanics with physiological blood pressure across animal species and in mice with altered vessel compliance, it is shown that cardiac and vascular development are physiologically coupled, and there is evidence for a universal elastic modulus that controls the parameters of ECM deposition in vessel wall development.
Journal ArticleDOI
Transmural organization of the arterial media. The lamellar unit revisited.
J M Clark,S Glagov +1 more
TL;DR: The findings suggest that these subunits of medial organization correspond to the distribution and magnitude of tensile stresses in well developed aortas.
Journal ArticleDOI
Improving vascular grafts: the importance of mechanical and haemodynamic properties.
TL;DR: Few suitable materials or techniques have yet been developed to improve the long‐term survival rates of small grafts, but recent advances in tissue engineering in which prostheses are manufactured by culturing vascular smooth muscle cells on a tubular scaffold of biodegradable polymer may ultimately make it possible to manufacture biologically and haemodynamically compatible grafts with diameters as small as 1mm.
Journal ArticleDOI
Age-related vascular stiffening: causes and consequences.
TL;DR: The underlying causes of age-related vessel stiffening are discussed, focusing on age- related crosslinking of the ECM proteins as well as through increased matrix deposition, and very recent work that demonstrates endothelial cells are mechano-sensitive to arterial stiffening, where changes in stiffness can directly impact EC health is discussed.
Journal ArticleDOI
Developmental adaptation of the mouse cardiovascular system to elastin haploinsufficiency
Gilles Faury,Mylène Pezet,Russell H. Knutsen,Walter A. Boyle,Scott P. Heximer,Sean E. McLean,Robert K. Minkes,Kendall J. Blumer,Attila Kovacs,Daniel P. Kelly,Dean Y. Li,Barry Starcher,Robert P. Mecham +12 more
TL;DR: Physiological studies indicate a role for the renin-angiotensin system in maintaining the hypertensive state and strongly suggests that elastin and other proteins of the elastic fiber should be considered as causal genes for essential hypertension.
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